A concave mirror (f= +12.5 cm) creates a virtual image of an 5.3 cm tall object. If di is -18.3 cm, where is the object located? Determine the magnification of the mirror in this case. Show your work.
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- How do you calculate the focal length of each individual lens thin lens. t12=17mm t21=17mm u3=14.4775degrees u1=1.44775degreesHelp.Two plane mirrors are at an angle of ?1 = 53.6° with each other as in the side view shown in the figure below. If a horizontal ray is incident on mirror 1, at what angle ?2 does the outgoing reflected ray make with the surface of mirror 2? Answer in degrees °
- A concave mirror (f= +12.5 cm) creates a virtual image of an 5.3 cm tall object. If di is -18.3 cm, where is the object located? Determine the magnification of the mirror in this case. Show your work.A makeup mirror magnifies your face by a factor of 1.35 when your face is 20.0 cm in front of it. Where is your image? Is it real/inverted or virtual/upright? What's the radius of curvature of mirror? PLEASE SKETCH THE RAY DIAGRAM (#1 priority) I believe it's upright and virtual and the radius 154 cm, just wanted to fact check. I'm struggling more on the drawing of the ray diagram. THANK YOUPLEASE SHOW ALL WORK! An object is placed to the left of a lens, and a real image is formed to the right of the lens. The image is inverted relative to the object and is one-half the size of the object. The distance between the object and the image is 90 cm. a) How far from the lens is the object? b) What is the focal length of the lens?